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Researchers at USDA have developed a thermal pasteurization method based on Radio Frequency technology that effectively reduces the presence of Salmonella in intact eggs, in a fraction of the time required for traditional pasteurization.

A newly developed biosensor measuring hypoxanthine, a compound that is produced during the process of decomposition, is able to accurately and efficiently determine the freshness of meat.

The U.S. Food and Drug Administration (FDA) has issued a guidance for industry that describes how firms can voluntarily engage with FDA before marketing food from genome-edited plants.

As part of the agency’s Leafy Greens STEC Action Plan, the U.S. Food and Drug Administration (FDA) has published a report detailing the results of targeted inspections and microbiological testing of leafy greens grown in Salinas Valley, California during the region’s 2022 harvest season.

The Global Seafood Alliance has approved its Seafood Processing Standards (SPS) version 6.0 and is seeking processing plants for pilots.

In a recent webinar organized by the Alliance for a Stronger FDA, a top policy and legislation official from the U.S. Food and Drug Administration (FDA) provided insight to the agency’s approach to regulating cannabidiol (CBD) and kratom in foods and dietary supplements.

A recent study has mapped the edible insect supply chain to identify the main points for potential food safety hazards and food fraud, and concluded that, in general, substantial food safety and authenticity gaps need to be addressed before edible insects can be considered safe and sustainable protein sources for Western markets.

In this episode of Food Safety Matters, we are joined by Natalie Dyenson, M.P.H., Chief Food Safety and Regulatory Officer for the International Fresh Produce Association (IFPA), about her role at IFPA, the Association’s key priorities for produce food safety, and its global advocacy work along the fresh produce supply chain.

The rapid rise of plant-based meat alternatives means that knowledge of the food safety risks of these products is still limited. In particular, microbial growth and inactivation kinetics is not well understood. Additionally, consumers face a learning curve in understanding how to safely handle plant-based meat alternatives. 

With a $5 million grant from the U.S. National Science Foundation (NSF), a multidisciplinary research team is developing sensor-based rapid detection technology, backed by an artificial intelligence (AI) –powered decision support system, to control Salmonella and other foodborne pathogens throughout the poultry supply chain.